FR3023234A1 - PYROTECHNIC SWITCH - Google Patents

Abstract

Pyrotechnic switch comprising: - at least two connection terminals, - at least one internal electrical circuit electrically connecting said at least two connection terminals, - a body movable in rotation between an initial position and a final position, - a pyrotechnic actuator, - a housing, characterized in that said at least one internal electrical circuit comprises: at least one portion of electrical conductor embedded on the movable body, and at least one portion of electrical conductor embedded in the housing and adjacent to said at least one portion of electrical conductor embedded on the movable body when the latter is in the initial position, so as to cut off said at least one internal electrical circuit during movement of the movable body.

Description

The present invention generally relates to a pyrotechnic switch comprising an internal electrical circuit with two connection terminals, arranged to be connected to a power network of a motor vehicle for example. Such a pyrotechnic switch may be a breaker arranged to cut off the power network in the event of an accident, for example, if the vehicle comprises means for storing a large quantity of electrical energy supplying the power circuit. The switch can also be an electric switch arranged to close an emergency electrical circuit for example. In other words, the pyrotechnic contactor in question is arranged to change a state of connection between the two connection terminals by opening or closing the internal electrical circuit. It is known in the prior art pyrotechnic switches, such as that described in US5818122 in Figures 8 and 10 in particular, which comprises a movable knife that can cut an electrical conductor. In return, this system has the particular disadvantage of cutting the electrical conductor at the end of the race, when the gas is the most relaxed because the volume of the combustion chamber is then maximum. The cutting forces are then reduced, which can affect the robustness of operation. In addition, if breakage verification information is desired, detection of the knife in the end position does not guarantee that the breakage of the conductor is made due to manufacturing tolerances and detection accuracy. To obtain information relating to the breaking of the contact, a measurement by detection of the position of the knife is therefore not sufficient. Finally, it can be mentioned that the knife, before operation, must be kept in place to avoid rattling noises and / or to ensure a constant stroke.

An object of the present invention is to meet the disadvantages of the document of the prior art mentioned above and in particular, firstly, to provide a reliable pyrotechnic switch as to the change of the connection state.

For this purpose, a first aspect of the invention relates to a pyrotechnic switch comprising: at least two connection terminals arranged to be connected to a general electrical circuit; at least one internal electrical circuit electrically connecting said at least two connection terminals; a body movable in rotation between an initial position and a final position and arranged to cut off said at least one internal electrical circuit during a movement from the initial position to the final position, a pyrotechnic actuator arranged to pass the movable body through the initial position at the end position when it is actuated, - a housing supporting the movable body and said at least one internal electrical circuit, characterized in that said at least one internal electrical circuit comprises - at least a first portion of electrical conductor embedded on the mobile body, and at least a second portion of electrical conductor e secured to the housing and adjacent to said at least a first portion of electrical conductor embedded on the movable body when the latter is in the initial position, so as to cut said at least one internal electrical circuit 25 during movement of the movable body. The pyrotechnic switch according to the present embodiment comprises an electrical conductor portion of the internal electrical circuit embedded on the movable body, which ensures that any movement of the movable body will indeed cause a change of state of connection between the two terminals of connection of the internal electrical circuit by physically cutting an electrical conductor of said at least one internal electrical circuit. The robustness of operation is improved by attaching at least one portion of electrical conductor to the movable body: thus, the movement of the moving body is linked to that of the embedded electrical conductor portion. The pyrotechnic switch according to this embodiment is a breaker and the internal electrical circuit is open as soon as the moving body starts its movement because it causes shear between the portion of the electrical conductor on the movable body and the adjacent portion of electrical conductor, which is integral with the housing (embedded in the latter for example). It may be noted that with respect to a breaker which cuts the electrical circuit at the end of travel of the movable body, here the internal electrical circuit is cut at the beginning of the race, and as an electric conductor portion is embedded on the movable body, that it moves away from the portion of electrical conductor embedded in the housing and this allows to lengthen the length of the electric arc (and therefore its voltage) arc that will necessarily be created during the shearing of the conductor portion. Advantageously, the race between the initial position and the final position is determined according to a maximum electrical voltage and / or a maximum electrical intensity of the general electrical circuit. This implementation makes it possible to define a maximum electric arc length whose voltage will then exceed the maximum electrical voltage of the general electric circuit, in order to extinguish such an arc. Advantageously, said at least a first portion of electrical conductor embedded on the movable body is embedded in the movable body. A connection of the embedding type guaranteed that the portion of electrical conductor is connected to the movable body. One can consider making the portion of electrical conductor through the moving body for example. Advantageously, the movable body is sandwiched between two guide portions of the housing, and said at least one internal electrical circuit 30 comprises two electrical conductor portions each embedded in a guide portion of the housing and adjacent to said at least one first portion of electrical conductor embedded on the movable body, when the latter is in the initial position. This implementation makes it possible to form a breaker with two points of shear or cut, which increases the breaking voltage since two arcs are thus created. Advantageously, said at least one internal electrical circuit comprises at least a third portion of electrical conductor embedded in the housing and adjacent to said at least one first portion of electrical conductor embedded on the movable body, when the latter is in the final position. The pyrotechnic switch according to this embodiment is a robust contactor, since the portion of electrical conductor integral with the housing is embedded, which allows to apply great connection forces with the movable body. For example, the recess can be made by overmolding the housing or the movable body on the electrical conductor portion. Advantageously, the pyrotechnic switch comprises a plurality of internal electrical circuits, the moving body carrying at least a first electrical conductor portion of each of the plurality of internal electrical circuits, to change a connection state during its movement. It is conceivable to have only a switch function or add to this switch a contactor function for the other internal electrical circuits, and we can then consider cutting some internal electrical circuits during the movement of the moving body, and to contact others during the same movement.

Advantageously, the pyrotechnic switch comprises: at least one first internal electrical circuit of which said at least one first portion embedded on the movable body is cut off from the remainder of the first internal electrical circuit during the movement of the movable body, and at least one second electrical circuit. internal said at least a first portion embedded on the movable body is contacted to the rest of the second internal electrical circuit during movement of the movable body. A second aspect of the invention is a current distribution device comprising at least one pyrotechnic switch according to the first aspect. A third aspect of the invention is a motor vehicle comprising at least one current distribution device according to the second aspect. Other features and advantages of the present invention will become more apparent upon reading the following detailed description of an embodiment of the invention given by way of non-limiting example and illustrated by the accompanying drawings, in which: FIG. 1 represents a view from above of a switch according to the invention; Fig. 2 shows a 3-dimensional view of the switch of Fig. 1. In this document, the terms "state of connection between two terminals of an internal electrical circuit" mean a connected state or a disconnected state. In other words, this means that the internal electrical circuit 20 is closed or open between the two connection terminals. Therefore the pyrotechnic switch can be a switch to cut the contact between the two connection terminals and possibly a contactor to establish contact between two other connection terminals. Furthermore, the term "embedding between an electrical conductor portion and the movable body or housing" refers to the nature of the connection between two components. An embedding link is a link that blocks all degrees of freedom between these two components. This can be achieved by different implementations: the portion of electrical conductor can pass through the movable body and / or the housing, it can be glued, welded, overmolded, screwed to be completely integral with the movable body or the housing. FIG. 1 represents a view from above of a pyrotechnic switch according to the present invention.

Figure 2 shows the pyrotechnic switch of Figure 1, in 3 dimensions. It shows a mobile body 10 arranged movably between two fixed guide portions 21 and 22 and each connected to a housing not shown by tabs 24 and 23 fixed. The movable body 10 is rotatable about an axis of rotation 12 visible in Figure 1. The movable body 10 comprises an arm 11 which allows to hang for example a piston pushed by a pyrotechnic actuator, to put in motion the movable body 10. It is possible to envisage all kinds of connections between the movable body 10 and the pyrotechnic actuator, such as a cable, balls, or put the combustion gases directly in contact with the arm 11 or a cavity defined in the body Mobile 10 for actuating the movable body 10. As a pyrotechnic actuator, it is possible to provide a well-known electro-pyrotechnic igniter for automotive safety to light a safety cushion or airbag. It is also possible to envisage a small low-power gas generator, otherwise known as a micro gas generator, which comprises an electro-pyrotechnic igniter and a small quantity of propellant. It then suffices for a short electric pulse to fire the pyrotechnic actuator and cause the movement of the movable body 10. The pyrotechnic switch comprises four internal electrical circuits each having two connection terminals. A first internal electrical circuit has the connection terminals 31a and 31b, a second internal electrical circuit the connection terminals 32a and 32b, a third internal electrical circuit the connection terminals 33a and 33b, and a fourth internal electrical circuit of which only one terminal connection 34a is visible.

As shown in FIG. 2 for the second internal electrical circuit, each internal electrical circuit comprises an electric conductor portion (32c for the second internal electrical circuit) embedded on the movable body 10 (it passes through it purely and simply), and two portions electrical conductor (32d for the second internal electrical circuit) embedded in each guide portion of the housing. Thus, during the movement of the movable body 10 caused by a force created by the pyrotechnic actuator during its actuation and as shown in Figure 1 at the arm 11 by an arrow, the movable body 10 will move from an initial position towards an end position and take with it the on-board electrical conductor portions represented in dashed lines in the final position. During this movement, as the electrical conductor portions embedded in the guide portions of the housing are static, shear will occur on either side of the onboard electrical conductor portions, and the internal electrical circuits will be cut. Local attenuation of the electrical conductor of the internal electrical circuit may be provided to promote mechanical failure in the areas between the movable body 10 and the guide portions 21 and 22 of the housing.

In this case, the rotation of the movable body 10 is about one-eighth of a turn, ie 45 °, but it is possible to envisage a more or less important stroke, as a function of the electric currents that pass through the internal electrical circuits. If the power used in the general circuit is small, it can have a stroke of a few degrees of angle, and if on the contrary the risk of electric arc is high with a power implemented in the high general circuit, then the stroke can be increased so as to have a large distance between the live parts and the onboard electrical conductor portion, once the latter is in final position with the movable body 10, to increase the voltage of the electric arc created between live parts.

It can be noted that it is possible not to cut, but to close an internal electrical circuit. For this, it is sufficient to provide for the internal electrical circuit in question an electric conductor portion adjacent to the embedded electrical conductor portion, when the latter is in the final position. It can be provided to couple at the end of the race these two portions of electrical conductor by embedding force, penetrate a portion in the other, or create surface contact under pressure. Such a pyrotechnic switch is compact and can act on several internal electrical circuits at the same time or in a sequenced manner. It will be understood that various modifications and / or improvements obvious to those skilled in the art can be made to the various embodiments of the invention described in the present description without departing from the scope of the invention defined by the appended claims.

Claims (7)

REVENDICATIONS1. Pyrotechnic switch comprising: - at least two connection terminals (31a, 31b, 32a, 32b, 33a, 33b, 34a) arranged to be connected to a general electrical circuit - at least one internal electrical circuit electrically connecting said at least two terminals of connection (31a, 31b, 32a, 32b, 33a, 33b, 34a), - a movable body (10) rotated between an initial position and a final position and arranged to cut said at least one internal electrical circuit during a movement from the initial position to the final position, - a pyrotechnic actuator arranged to move the movable body (10) from the initial position to the final position when it is actuated, - a housing supporting the movable body (10) and said at least one an internal electrical circuit, characterized in that said at least one internal electrical circuit comprises - at least a first portion of on-board electrical conductor (32c) on the movable body (10), and at least one second e portion of electrical conductor (32d) integral with the housing and adjacent to said at least a first portion of onboard electrical conductor (32c) on the movable body (10) when the latter is in the initial position, so as to cut said at least an internal electrical circuit during movement of the movable body (10). 2. pyrotechnic switch according to the preceding claim, characterized in that said at least a first portion of embedded electrical conductor (32c) on the movable body (10) is embedded in the movable body (10). 3. Pyrotechnic switch according to one of the preceding claims, characterized in that the movable body (10) is sandwiched between two guide portions (21, 22) of the housing, and in that said at least one internal electrical circuit comprises two electrical conductor portions (32d) each embedded in a guide portion (21, 22) of the housing and adjacent to said at least one embedded electrical conductor portion (32c) on the movable body (10), when the latter is in the initial position. Pyrotechnic switch according to one of the preceding claims, characterized in that it comprises a plurality of internal electrical circuits, the movable body (10) carrying at least a first portion of electrical conductor of each of the plurality of internal electrical circuits. , to change a connection state during its movement. 5. pyrotechnic switch according to the preceding claim, characterized in that it comprises: - at least a first internal electrical circuit of which said at least a first portion embedded on the movable body (10) is cut off from the rest of the first internal electrical circuit during the movement of the movable body (10), and - at least a second internal electrical circuit of which said at least one first portion on the moving body (10) is contacted with the remainder of the second internal electrical circuit during movement of the movable body ( 10). 20 6. A current distribution device comprising at least one pyrotechnic switch according to one of the preceding claims. 7. Motor vehicle comprising at least one current distribution device according to the preceding claim. 25